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Dose-optimized HILT promotes peripheral nerve repair through BMP4-Smad9-mediated inhibition of neuroinflammation and oxidative stress
L. Gong, D. Li, X. Zhao, Y. Qu, S. Song, J. Liu, S. Yue
APL Bioengineering, Mar 5;10(1):016115, 2026
Evidence has shown that high-intensity laser therapy (HILT) may be beneficial for recovery after peripheral nerve injury (PNI). However, the optimized doses and effective mechanisms remain unclear. The present study sought to explore the effects of various doses of HILT on the recovery of nerve function in sciatic nerve injury (SNI) rats. The potential mechanism of action of HILT alleviating PNI was also assessed. Behavioral testing, polymerase chain reaction, immunoblotting, and immunofluorescence analyses were applied to explore whether HILT promotes the repair of injured nerves and its underlying mechanisms. SNI induces mechanical nociceptive hypersensitivity, disrupts sciatic nerve structure and function, causes gastrocnemius muscle atrophy, and increases oxidative stress and expression levels of inflammatory factors. HILT effectively ameliorated these SNI-induced alterations. Notably, the Bone Morphogenetic Protein 4 (BMP4)-SMAD Family Member 9 (Smad9) pathway mediates the therapeutic effects of HILT on SNI repair. These findings show for the first time that HILT stimulates the BMP4-Smad9 signaling pathway by increasing Smad9 expression to regulate inflammation and oxidative stress, which ultimately ameliorates SNI.